WALL AND CEILING TRACK SYSTEM FOR MOUNTING DEVICES

Abstract

The presently claimed invention contemplates a track for mounting devices onto a structure with a support surface on a rear side of the track configured to be installed on a structure. The track further comprises a first rear-facing hook and a second rear-facing hook that bends toward the rear side of the track. The first and second rear-facing hooks are disposed on opposite ends of the support surface.

Claims

1.-25. (canceled)

26. A vertical rail for removably coupling a device to a track, comprising: a coupling unit comprising a first hook and a second hook that are configured to removably couple with the track such that the first hook and the second hook at least partially engage a rear surface of the track; a first wall coupled to the coupling unit; a second wall coupled to the coupling unit; a first support unit coupled to the first wall and the second wall, wherein the first support unit is disposed below the coupling unit; and a slot disposed between the coupling unit and the first support unit, wherein the slot is sized and dimensioned to receive a coupling member of the device.

27. The vertical rail of claim 26, wherein the coupling member of the device comprises a first device hook, and wherein the first support unit comprises a first hook that interacts with the first device hook.

28. The vertical rail of claim 27, wherein the coupling member of the device comprises a second device hook, and wherein the first support unit comprises a second hook that interacts with the second device hook.

29. The vertical rail of claim 26, further comprising: a second support unit coupled to the first wall and the second wall, and wherein the second support unit is disposed below the first support unit; and a second slot disposed between the first support unit and the second support unit.

30. The vertical rail of claim 26, wherein one or more of the first hook and the second hook is flexible to provide a snap-fit connection with the track.

31. The vertical rail of claim 26, wherein the device is a bracket, and the coupling member is a hook, and wherein the slot is sized and dimensioned to receive the hook; and wherein the slot is defined by surfaces of (i) the coupling unit, (ii) the first support unit, (iii) the first wall, and (iv) the second wall.

32. (canceled)

33. The vertical rail of claim 26, wherein the first hook is more rigid than the second hook; and wherein the first support unit is thinner than the coupling unit.

34. (canceled)

35. A bracket system that mounts onto a support structure, comprising: a bracket having a body comprising a first accessory rail and a second accessory rail disposed on opposite lateral sides of the body; a first hook disposed on a rear side of the body; and an adapter in a slidable relationship with the rear side of the body, such that (i) a ridge of the adapter and the first hook engage the support structure in a first configuration, and (ii) the ridge and the first hook disengage the support structure in a second configuration.

36. The system of claim 35, wherein the body comprises an adapter hook, and wherein the adapter comprises a slot sized and dimensioned to receive the adapter hook.

37. The system of claim 36, wherein the slot and adapter hook are sized and dimensioned to engage via friction fit.

38. The system of claim 35, wherein one or more of the first hook and the adapter hook is a downward-facing hook.

39. The system of claim 35, wherein the first and second accessory rails comprise a protrusion.

40. (canceled)

41. The system of claim 35, wherein the adapter comprises a cavity sized and dimensioned to receive a finger of a user to transition between the first and second configurations.

42. The system of claim 35, further comprising a shelf disposed on a top surface of the bracket; and wherein the shelf and the bracket are coupled via a fastener.

43. (canceled)

44. A bracket assembly for mounting a device onto a support structure, comprising: a first bracket comprising a first accessory rail and a first hook; a second bracket comprising a second accessory rail and a second hook; wherein the first hook and the second hook are sized and dimensioned to couple onto the support structure; and wherein the first accessory rail and the second accessory rail are sized and dimensioned to receive first and second surfaces of the device to thereby mount the device onto the support structure.

45. The assembly of claim 44, wherein the first and second surfaces of the device are first and second handles.

46. The assembly of claim 44, wherein the first bracket comprises a first platform disposed above the first accessory rail, and the second bracket comprises a second platform disposed above the second accessory rail; and wherein the first and second platforms are configured to support a shelf.

47. (canceled)

48. The assembly of claim 44, wherein the first bracket comprises a third hook and the second bracket comprises a fourth hook, and wherein the third hook and the fourth hook are sized and dimensioned to couple onto the support structure.

49. The assembly of claim 44, wherein the support structure is a vertical rail assembly having a first vertical rail and a second vertical rail, and wherein the first hook is sized and dimensioned to engage a slot of the first vertical rail and the second hook is sized and dimensioned to engage a slot of the second vertical rail; and wherein the support structure is a slatwall having slots sized and dimensioned to receive the first hook and the second hook.

50. (canceled)

51. The bracket of claim 44, wherein the support structure is a horizontal track having a rear-facing hook, and wherein the first hook and the second hook are configured to engage the rear-facing hook of the horizontal track.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0011] FIGS. 1A-1E depict various views of an embodiment of a track for mounting devices.

[0012] FIGS. 2A-2D depict various views of an alternative embodiment of a track for mounting devices.

[0013] FIG. 3 depicts a cross-sectional view of the track in FIGS. 2A-2D mounted to a wall.

[0014] FIGS. 4A-4D depict various views of a vertical rail capable of attaching to the track in FIGS. 1A-1E and 2A-2D.

[0015] FIGS. 5A-5F depict various devices/accessories that can attach to the vertical rail in FIGS. 4A-4D.

[0016] FIG. 6A-6C depict various views of a bracket that removably couples to the vertical rail in FIGS. 4A-4D.

[0017] FIG. 6D depicts a bracket attached to a slatwall.

[0018] FIG. 7A depicts an exploded view of the bracket in FIG. 6A.

[0019] FIGS. 7B-7C depict a track, bracket, and adapter in a slidable relationship.

[0020] FIGS. 8A-8D depict various views of an adapter that removably couples to the bracket in FIG. 6A.

[0021] FIGS. 9A-9B depict the bracket in FIG. 6A coupled with the track in FIG. 2 to store containers.

[0022] FIGS. 10A-10B depict accessories attached to the track in FIG. 2 on a ceiling for overhead storage.

[0023] FIGS. 11A-11B depict perspective views of a locking pin mechanism and an overhead shelf system.

[0024] FIG. 12 depicts a perspective view of an overhead storage system coupled to both a track mounted on a ceiling and a track mounted on a vertical wall.

DETAILED DESCRIPTION

[0025] The following discussion provides example embodiments of the inventive subject matter. Although each embodiment represents a single combination of inventive elements, the inventive subject matter is considered to include all possible combinations of the disclosed elements. Thus if one embodiment comprises elements A. B. and C, and a second embodiment comprises elements B and D, then the inventive subject matter is also considered to include other remaining combinations of A, B, C. or D, even if not explicitly disclosed.

[0026] Also, as used herein, and unless the context dictates otherwise, the term coupled to is intended to include both direct coupling (in which two elements that are coupled to each other contact each other) and indirect coupling (in which at least one additional element is located between the two elements). Therefore, the terms coupled to and coupled with are used synonymously.

[0027] FIGS. 1A-1E depict various views of a track 100 for mounting devices. Track 100 comprises a support surface 112, a first rear-facing hook 102, and a second rear-facing hook 104 (see FIG. 1A). Support surface 112 is flat and is disposed at a rear side of track 100 (see FIG. 1B). Track 100 further comprises a cavity 108 that is defined by at least a portion of support surface 112, the first rear-facing hook 102 and the second rear-facing hook 104. It is contemplated that a cover can removably couple with track 100 to cover a portion of track 100. For example, a cover 114 as shown in FIG. 1D comprises protrusions that engage recesses or channels 106 within the cavity 108 of track 100.

[0028] Track 100 can be mounted onto a vertical and/or horizontal structure. For example, track 100 can be mounted onto a vertical wall or a ceiling. It is contemplated that track 100 is mounted onto the structure via support surface 112. In one embodiment, support surface 112 comprises one or more openings/apertures 606 adapted to receive one or more fasteners (e.g., a screw, a bolt, a nail, etc.). In another embodiment, support surface 112 can comprise multiple types of openings adapted to receive different types of fasteners (e.g., a first opening 606a for a screw and a second opening 606b for a bolt) (see FIG. 1C). For example, a first type of opening can be sized and dimensioned to receive inch screw diameters, and a second type of opening can be sized and dimensioned to receive inch screw diameters.

[0029] Although fasteners are described above, it is contemplated that track 100 can be mounted onto a structure using other devices with or without fasteners (e.g., a screw, a bolt, a nail, etc.). For example, support surface 112 can be directly welded onto a metal structure to mount track 100 onto the structure. In another example, an adhesive can be applied to support surface 112 to mount track 100 onto a structure. Adhesives can include any non-metallic or partially metallic substance that binds surfaces together and resist separation. In some embodiments, an adhesive can be applied to support surface 112 followed by use of fasteners via openings in a support surface to create a mechanical bond between track 100 and the structure. For example, glue can be applied to a support surface and the glue can be allowed to seep through one or more openings that then receive fasteners to further assist in preventing separation of track 100 from the structure. In another example, glue can be applied to a support surface in a manner that it does not seep through opening on support surface 112, and then fasteners are driven through the openings and into a structure to mount track 100. It should be appreciated adhesive is applied to the side of support surface 112 that contacts the structure. Additionally, or alternatively, adhesive could be applied on the structure at a location where track 100 is to be mounted. In yet another example, the fastener could comprise magnetic couplings or mechanical engagements (e.g., male-female connectors, snap-fit connectors, hook and loop fasteners, etc.).

[0030] Cover 114 is configured to cover the openings in support surface 112 and any fasteners or devices that couple track 100 to the structure (see FIG. 1E). As shown in FIG. 1A, track 100 includes two recesses 106 or channels that are adapted to receive a corresponding protrusion on cover 114. It is contemplated that cover 114 can be pressed into a cavity 108 of track 100 defined by at least a portion of support surface 112, the first rear-facing hook 102 and the second rear-facing hook 104. Once cover 114 is pressed into the support structure with sufficient pressure, cover 114 can snap into place when the protrusions enter the recesses 106 of track 100. As shown in FIG. 1E, it is contemplated that cover 114 is the same length as track 100.

[0031] The first and second rear-facing hook are configured to couple with one or more track attachments, which will be discussed in further detail below. As shown in FIG. 1D, the first rear-facing hook 102 has a first portion that is substantially orthogonal relative to support surface 112. The first portion comprises a first recess 106 that is sized and dimensioned to receive a first cover protrusion. It is contemplated that other coupling members can be used (e.g., opening) to receive the first cover protrusion. Although cover 114 is disclosed as having a protrusion, it is contemplated that track 100 can comprise the protrusion and cover 114 can comprise a recess 106, opening or other coupling member that receives the protrusion. The first rear-facing hook 102 further comprises a second portion that runs substantially parallel to support surface 112. The first rear-facing hook 102 further comprises a third portion that runs substantially parallel to the first portion. It is contemplated that the first portion and second portion are substantially orthogonal and/or the second portion and third portion are substantially orthogonal. As used herein. substantially orthogonal means between 80-100. A first parallel portion is disposed between the first and third portions.

[0032] Similar to the first rear-facing hook 102, the second rear-facing hook 104 has a first portion that is substantially orthogonal relative to support surface 112. The first portion comprises a second recess 106 that is sized and dimensioned to receive a second cover protrusion. The second rear-facing hook 104 further comprises a second portion that runs substantially parallel to support surface 112. The second rear-facing hook 104 further comprises a third portion that runs substantially parallel to the first portion. It is contemplated that the first portion and second portion are substantially orthogonal and/or the second portion and third portion are substantially orthogonal. A second parallel portion is disposed between the first and third portions.

[0033] FIGS. 2A-2C depict various views of another embodiment of track 200 for mounting devices. Track 200 comprises a support surface 202, a first rear-facing hook 204, and a second rear-facing hook 206.

[0034] Support surface 202 partially defines a rear side of track 200. In the depicted embodiment, support surface 202 is configured to removably couple with a structure using one or more fasteners and one or more openings. The openings can comprise any shape or form including, for example, circular openings, ovular openings, and rectangular openings.

[0035] In one embodiment, support surface 202 comprises one or more openings adapted to receive one or more fastening devices. In another embodiment, support surface 202 can comprise multiple types of openings adapted to receive different types of fastening devices. In embodiments where support surface 202 comprises one or more openings, it is contemplated that the fastening devices can include screws, nails, and any other fastener known in the art.

[0036] As shown in FIG. 2A, support surface 202 is not flat. Support surface 202 includes a raised portion relative to two adjacent flat portions (i.e., the portions of the support structure that are closest to the wall when the support structure is attached). In this embodiment, the raised portion can include openings that accommodate one or more fasteners, and the flat portions can separately include openings that accommodate one or more fasteners of the same or different type.

[0037] In some embodiments, the raised portion can include multiple types of openings to accommodate different types of hardware fasteners. For example, the raised portion can comprise a first type of opening sized and dimensioned to receive inch screw diameters and a second type of opening sized and dimensioned to receive inch screw diameters. The flat portions can similarly include different types of openings to accommodate different screw diameters.

[0038] Similar to the embodiment depicted in FIGS. 1A-1E, support surface 202 can be mounted onto a structure using other devices with or without fasteners (e.g., a screw, a bolt, a nail, etc.). For example, support surface 202 can be welded on to a metal structure to create a substantially permanent fixture. In another example, support surface 202 can use an adhesive to fix support surface 202 to a structure.

[0039] In yet another embodiment, support surface 202 and the structure can be coupled to a structure using a mixture of chemical adhesive agents and fasteners (e.g., a screw, a bolt, a nail, etc.). For example, support surface 202 can be coupled to a wall by applying glue between support surface 202 and the wall, and additionally fastening one or more screws from a first side of support surface 202 through to a second side of support surface 202 and finally into the wall.

[0040] FIG. 3 depicts a cross-sectional view of track 200 shown in FIGS. 2A-2C. As shown, track 200 is capable of receiving different type of fasteners, such as wood screws on the flat portions and a lag bolt on the raised portion of support surface 202. In other embodiments, the hardware-based fastening devices can be of the same type. Furthermore, as shown in FIG. 3, track 200 comprises a cavity 208 adapted to receive a cover 114 via a snap-fit mechanism between cover protrusions and recesses on track 200. Cover 114 can alternatively be coupled to track 200 using a friction fit. The first and second rear-facing hooks 204 and 206 are configured to couple with corresponding structures on track attachments, which will be discussed in further detail below.

[0041] Track 200 can be installed on wall 214. Wall 214 can represent any solid surface that track 200 can be secured onto with fasteners or alternative attachment mechanisms as discussed above in FIG. 1.

[0042] FIGS. 4A-4D depict various perspective views of a vertical rail that mounts to track 100 and track 200. Vertical rail 400 comprises a coupling unit comprising a first hook and a second hook configured to removably couple with a track, first wall 412 coupled to coupling unit 402, second wall 414 coupled to coupling unit 402, support units coupled to first and second walls 412 and 414, and one or more slots 406 disposed between the first support unit and coupling unit 402 and between any two adjacent support units.

[0043] First wall 412 and second wall 414 are attached to coupling unit 402 and one or morn support units. In one embodiment, first wall 412, second wall 414, and coupling unit 402 can be made of metal. In this embodiment, first and second walls 412 and 414 can each be welded to one or more coupling units 402 and support units 408 and 410. In other embodiments, first and second walls 412 and 414 can be coupled to the one or more coupling units and support units 408 and 410 using any one or more of adhesives, hardware based fasteners (e.g., a screw, a bolt, a nail, etc.), locking pin fasteners, and magnetic fasteners.

[0044] In other embodiments, first and second walls 412 and 414, the one or more coupling units 402, and support units 408 and 410 can be one continuous structure. For example, vertical rail 400 can be formed by a molding process or other manufacturing process that produces one continuous plastic structure or one continuous metal structure. In yet other embodiments, first and second walls 412 and 414, the one or more coupling units 402, and support units 408 and 410 can comprise a mixture of different materials. For example, first and second walls 412 and 414 can be made from a first metal or metal alloy, support units 408 and 410 can be made of one or more types of plastics, and coupling unit 402 can be made of a second metal or metal alloy. It is contemplated that the structures disclosed herein can comprise a variety of materials including, for example, metals, metal alloys, moldable polymeric materials, woods, glass, and composite materials.

[0045] It is contemplated that the bottom support unit can be thinner than the remaining support units to allow a second vertical rail to attach to a first vertical rail. For example, a first hook of a coupling unit 402 of a second vertical rail can be slid through the slot above a bottom support unit of a first vertical rail, and a second hook of coupling unit 402 of the second vertical rail can engage a bottom portion of the bottom support unit of the first vertical rail to thereby couple a second vertical rail onto a first vertical rail. It should be appreciated that the ability to couple two or more vertical rails allows additional accessories to be mounted along a vertical length.

[0046] It is also contemplated that coupling unit 402 comprises track couplers 416. Track couplers 416 allowing coupling unit 402 to removably couple with a horizontal track or one or more support units 408 and 410 of vertical rail 400.

[0047] However, it is also contemplated that track couplers 416 do not exist in some embodiments, such as in FIG. 4D. In these embodiments, coupling unit 402 hangs off track 100 or track 200 and stays coupled to track by force of gravity.

[0048] In the depicted embodiment, anchor holes 418 are configured and distributed in any manner. For example, anchor holes 418 and their corresponding diameters can be each be substantially the same. In another example, anchor holes 418 and their corresponding diameters can be a mixture of different diameters.

[0049] FIG. 4D further depicts a cross sectional view of vertical rail 400 along line A-A (see FIG. 4A) showing a first lip 420 and a second lip 422. In the depicted embodiment, first lip 420 and second lip 422 extend towards the posterior surface of vertical rail 400. The depicted embodiment further shows first lip 420 being shorter than second lip 422.

[0050] In alternative embodiment, first lip 420 and second lip 422 can be in any length and direction. For example, first lip 420 can extend towards the anterior surface of vertical rail 400 and second lip 422 can extend towards a posterior surface of vertical rail 400. In another example, first lip 420 can extend in either direction and second lip 420 can extend in a posterior direction. In yet another example, first lip 420 and second lip 422 can extend at non-orthogonal angles relative to the anterior and/or posterior surfaces of vertical rail 400.

[0051] FIGS. 5A-5F depict various devices/accessories that can be attached to vertical rail 400 and/or track 200. FIG. 5A depicts a utility hook that couples to slot 406 between a coupling unit and a first support unit of a vertical rail. It is contemplated, however, that utility hook 502 can couple to any slot along vertical rail 400, such as slots 406 formed by any two adjacent support units. Additionally. or alternatively, utility hook 502 can directly attach to track 200. Suitable utility hooks are described in U.S. Pat. Nos. 8,800,212 and 9,173,507, which are hereby incorporated by reference.

[0052] In one embodiment, utility hook 502 comprises two hooking members that are removably attached to two attachment mechanisms 504 on the anterior face of utility hook 502. The two hooking members can be attached to the two attachment mechanisms 504 using a magnetic coupling mechanism, a screw-based coupling mechanism, a snap-fit coupling mechanism, and/or a friction-fit coupling mechanism. It is contemplated that two attachment mechanisms 504 do not have to be the same type. For example, a first attachment mechanism of the two attachment mechanisms 504 can be magnetic, and a second attachment mechanism of the two attachment mechanisms 504 can be a screw-based coupling mechanism. In an alternative embodiment, the two attachment mechanisms 504 can be permanently fixed to the anterior face of utility hook 502.

[0053] In yet another embodiment, the two attachment mechanisms 504 can be configured to attach to alternative tools. In one example, the two attachment mechanisms 504 can be configured to attach to a reinforced hook made for supporting weights up to 100 pounds. In another example, the two attachment mechanisms 504 can be configured to attach to a longer retail hook configured to allow multiple inventory items to be stored and displayed in a retail environment.

[0054] Though the depicted embodiment in FIG. 5A shows a utility hook comprising two attachment mechanisms 504 and two hooking members, utility hook 502 can comprise any number of attachment mechanisms 504 and hooking members.

[0055] FIG. 5B depicts a bracket and shelf system whereby bracket 600 (discussed in further detail in the detailed description of FIG. 6) has hooks that are inserted into slots on vertical rail 400. It is contemplated that bracket and shelf system can couple to any slot, such as slots 406 formed by any two adjacent support units.

[0056] Bracket and shelf system further comprises a flat platform 604 on the top side of bracket 600, and a first and second cavity disposed on opposite lateral sides of bracket 600. Additionally, the flat platform 604 on the top side of bracket 600 can comprises openings to receive one or more fasteners. It is contemplated that a shelf can be coupled onto bracket 600 using the one or more fasteners. For example, a screw, a bolt, or a nail can be driven through the shelf and into the opening of bracket 600 to secure the shelf.

[0057] FIG. 5C depicts a basket assembly 506 that couples to slot 406 between a first and second support unit of a first vertical rail, and a second slot between a first and second support unit of a second vertical rail. It is contemplated, however, that basket assembly 508 is not limited to the depicted embodiment and can be coupled to only one slot between a first and second support unit.

[0058] FIG. 5D depicts bracket and container 514, wherein bracket 512 has hooks that are inserted into a first and a second slot formed by support units of a vertical rail. As shown in FIG. 5D, a first support ridge on a flat platform on the top side of bracket 600 can be inserted into a corresponding cavity formed by a handle on container 514 to thereby attach container 514 onto bracket 600. It is contemplated that at least two brackets work cooperatively to engage two corresponding cavities on opposite sides of container 514 and thereby mount container 514. It is further contemplated that a second support ridge of bracket 600 shown in FIG. 5D can be inserted into a cavity formed by a handle of a different container. Thus, rows of containers can be mounted at various heights relative to the floor using a combination of tracks, vertical rails, and brackets. For example, three brackets, each having a pair of support ridges 512 can couple to two containers with the middle bracket engaging a cavity of a first container and a cavity of a second container, and the two other brackets each engaging an opposite cavity of the first or second container.

[0059] FIG. 5E depicts a tire rack system 516. Four connecting members 518 of the tire rack system each having hooks that are inserted into slots formed by the support units on a first and second vertical rail. In the depicted embodiment, first and second connecting members 518 of the tire rack system pair to the first vertical rail and third and fourth connecting members of the tire rack system pair to the second vertical rail. In preferred embodiments, the first and second connecting members are in a parallel arrangement relative to the third and fourth connecting members.

[0060] The connecting members attach to secure a platform formed by two support bars disposed between two platform arms 520 connected to a first set of connecting members. A second set of connecting members are coupled to two superior support arms which couple to a substantially anterior portion of the two platform arms 520, respectively. In one embodiment, the platform comprises two bars disposed between the two platform arms that can receive a tire.

[0061] FIG. 5F depicts a lumber rack system 522 comprising a connecting member, a hinge attachment 524, a restriction mechanism 526, and a telescoping arm comprising first arm 528 and second arm 530, and restriction platform 532. The telescoping arm comprises first arm 528 and second arm 530 in a slidable relationship, such that first arm 528 substantially encapsulates second arm 530 when the telescoping arm is in a contracted configuration. In an extended configuration, an inner surface area of the first arm 528 and an outer surface area of the second arm partially overlap. In a preferred embodiment, the first arm 528 comprises a restricting mechanism to restrict the first and second arms 528 and 530 from sliding relative to each other. For example, the restriction mechanism 526 can comprise a screw that is coupled to a screw hole on first arm 528, which causes friction-based restriction of movement when engaged by exerting pressure on second arm 530.

[0062] The hinge attachment 524 allows first and second arms 528 and 530 to connect to the connecting member in a hinged configuration. In a preferred embodiment, the hinge attachment 524 attaches to second arm 530 using a pin lock mechanism. However, it is contemplated that any mechanism allowing a hinged relationship between the connecting member and second arm 530 can be used. The hinged configuration allows first and second arms 528 and 530 to move relative to the connecting member.

[0063] The restricting platform 532 limits rotation of first and second arms 528 and 530 from a vertical configuration to a horizontal configuration to a range of up to 90. However, it is contemplated that the restricting platform 532 can be disposed at a different angle to allow greater or less degree of rotation for first and second arms 528 and 530.

[0064] FIGS. 6A-6C depicts various views of a bracket that removably couples to vertical rail 400, track 100, or track 200 for mounting devices (see, e.g., FIG. 5B). Additionally. or alternatively, bracket 600 can removably couple with a slatwall mounting system and/or an overhead storage system. Suitable slatwall mounting systems are described in U.S. Pat. No. 8,746,472, which is hereby incorporated by reference. Suitable overhead storage systems are described in U.S. Pat. Nos. 8,657,130, 8,985,350, and 9,433,285, which are hereby incorporated by reference.

[0065] As shown in FIGS. 6A-6C, bracket 600 comprises a flat platform 604 at the top side of bracket 600, first and second cavities 608 disposed on lateral sides of bracket 600, a first and second accessory rails 602 that extend along the body of bracket 6W, and top hook 610 for partial mounting of bracket 600 to a track and/or vertical rail. An adapter 612 can be coupled onto bracket 600 as shown in FIG. 6 to provide enhanced coupling with track 100 or track 200.

[0066] In some embodiments, the accessory rails 602 can comprise one or more protrusions to releasably engage with corresponding recesses on various accessories. For example, a container handle can comprise four recesses that mate with four corresponding protrusions in a first accessory rail 602 in order to restrict posterior-anterior movement (i.e., sliding) of the container.

[0067] It is contemplated that the flat platform 604 can comprises one or more attachment mechanisms 504. For example, the flat platform 604 can have one or more apertures 606 adapted to receive a fastener (e.g., a screw, a bolt, a nail, etc.) to fix a shelf to bracket 600. Additionally, or alternatively, the flat platform 604 can comprise one or more support ridges 512 adapted to engage slots of an accessory. For example, the support ridges 512 can releasably engage a shelf with corresponding slots to prevent substantial movement of the shelf relative to bracket 600.

[0068] FIG. 6D depicts a slatwall 634 configured to removably couple with any one or more accessories 638, such as the embodiments depicted and described in FIGS. 5A-5F. It is contemplated that slatwall 634 comprises alternative rows of cavities 636 and support surfaces 638. It is contemplated that cavities 636 can be shaped in any manner to receive and secure any one or more accessories described above. It is further contemplated that cavities 636 can be through-holes that extend through both an anterior surface and posterior surface of slatwall 634.

[0069] In some embodiments, slatwall 634 has one or more anchor holes, such as the anchor holes 418. As with anchor holes 418, slatwall 634 can have any combination of anchor holes.

[0070] FIG. 7A depicts an exploded view of bracket 600 shown in FIG. 6. As shown, bracket 600 comprises hooks 702 that are configured to engage slots in adapter 612 in a slidable relationship. After hooks of bracket 600 are inserted into slots 406 of adapter 612, it is contemplated that a top hook of bracket 600 can be placed on top of a top rear-facing hook of track 100, and adapter 612 can be slid relative to bracket 600 to thereby position a ridge of adapter 612 at an end of a bottom rear-facing hook of a track to restrict tilting of bracket 600 and further secure bracket 600 on track 100 as shown in FIG. 7B. From the locked configuration, adapter 612 can be slid down to alter the position of the ridge away from the bottom rear-facing hook to allow bracket 600 to tilt for removal from track 100 as shown in FIG. 7B. In alternative embodiments, adapter 612 can engage bracket 600 using a magnetic mechanism, a screw-based mechanism, a friction fit mechanism, and a snap fit mechanism.

[0071] FIG. 7A further depicts protrusions 704 located in one or more locations within first and/or second cavities 608. It is contemplated that protrusions 704 releasably mate with corresponding cavities in one or more accessories to secure the accessory to bracket 600.

[0072] FIGS. 8A-D depict various views of adapter 612 that removably couples to bracket 600. As depicted, adapter 612 comprises adapter ridge 614 disposed at the top side of adapter 612, a first slot, a second slot, a third slot, and a fourth slot (see slots 610 in FIG. 8B). It is contemplated that adapter 612 further comprises cavity sized and dimensioned to receive a finger of a user to slide adapter 612 relative to bracket 600 between a locked configuration and an unlocked configuration as discussed above. Although adapter ridge 614 of adapter 612 is discussed restricting tilt in a locked configuration when coupled to a track, it is contemplated that adapter ridge 614 can be slid into a second slot of a vertical rail after top hook 610 of bracket 600 is inserted into a first slot of vertical rail 400 to further secure bracket 600 onto vertical rail 400. Additionally, or alternatively, bracket 600 can be mounted onto vertical rail 400 without use of the adapted by inserting at least one hook of bracket 600 into slot 406 of vertical rail 400.

[0073] In some embodiments, adapter 612 can be locked in a particular configuration using an engagement member. It is contemplated that an engagement member can comprise any one or more means of causing the adapter to change configurations and/or allow a user to change the configuration of the adapter. For example, changes in configurations can include, but are not limited to, locking and unlocking adapter 612 such that adapter 612 can mounted or dismounted from bracket 600. Some examples of engagement members include, but are not limited to, buttons, sliders, and dials.

[0074] In some embodiments, adapter 612 includes both engagement and disengagement members. For example, adapter 612 can have an engagement button and a disengagement button that fixes or releases adapter 612 from bracket 600. Similar to engagement buttons, disengagement buttons can include any mechanisms configured to change the physical configuration of the adapter, such as, for example, buttons, sliders, and dials.

[0075] In yet other embodiments, adapter 612 only has a disengagement member. For example, adapter 612 can use a mechanism to automatically lock the adapter into place when adapter 612 is moved into a first position. When adapter 612 is to be removed, a disengagement member can be actuated by a user to unlock adapter 612 from the bracket.

[0076] In yet another embodiment, adapter 612 lacks any engagement member and is instead secured through alternative mechanical means. For example, adapter 612 can be fixed onto bracket 600 using a friction fit. In another example, adapter 612 can be fixed onto bracket 600 using an adhesive. In yet another example, adapter 612 can be fixed onto bracket 600 using a screw fastener-based mechanism.

[0077] FIGS. 9A-9B depict a bracket and shelf system 900 comprising bracket 902, bracket 904, and a track 200 used cooperatively to store containers 908. As shown in FIG. 9A, first bracket 902 and second bracket 904 are spaced apart such that the handles of container 908 can slide into an accessory rail on first bracket 902 and an accessory rail on second bracket 904. FIG. 9A also depicted a wire shelf 906 that is removable attached to a flat platform 604 on the top side of first bracket 902 and a flat platform 604 on the top side of the second bracket 904.

[0078] FIG. 9B shows a third bracket 910 that can be used to mount a second container. It is contemplated that additional bracket and shelf assemblies can be used to mount additional containers. Furthermore, it is contemplated that a container can be placed on top of the shelf.

[0079] As discussed above, a track can also be mounted onto a ceiling to provide overhead storage. FIGS. 10A-10B depict two accessories that can be attached to track 200 used for overhead storage. FIG. 10A depicts an overhead hook comprising a hook and a coupling unit. Coupling unit 402 comprises a first superior hook and a second superior hook adapted to removably couple to an overhead track. In one embodiment, the overhead hook is removably attached to coupling unit 402. For example, the overhead hook can be coupled using a magnetic coupler, a friction fit coupler, a screw-based coupler, and a snap fit coupler. In another embodiment, the overhead hook can be permanently fixed to coupling unit 402. For example, the overhead hook can be welded to coupling unit 402, where both coupling unit 402 and overhead hook are made of metal. In another example, the overhead hook can be joined to coupling unit 402, where both coupling unit 402 and the overhead hook comprise one or more plastics.

[0080] FIG. 10B shows an overhead track system 1000 comprising a coupling unit having hooks 1004 adapted to removably couple to track 200. A locking pin mechanism can be used to couple other items to coupling unit 402. For example, FIG. 11 depicts perspective views of a pin lock 1006 used in an overhead shelf system.

[0081] As shown in FIG. 11, track system 200 comprises a first coupling unit, a second coupling unit, a third coupling unit, and a fourth coupling unit (collectively coupling unit(s) 402) which are coupled on a superior side to an overhead track and coupled on an inferior side to first, second, third, and fourth telescoping arms, respectively (respectively telescoping arms 1102a-d). It should be noted that FIG. 11 does not explicitly show the fourth coupling unit and the fourth telescoping arm, but their presence is implied by the perspective view of the overhead shelf system.

[0082] Coupling units 402 can be removably attached to telescoping arms 1102. For example, coupling units 402 can be connected to telescoping arms 1102 using a pin lock 1008 as depicted in FIG. 11. Telescoping arms 1102 each comprise a primary arm and a secondary arm in a slidable relationship, such that the primary arm substantially encapsulates the secondary arm when telescoping arm 1102 is in a contracted configuration. In an extended configuration, an inner surface area of the primary arm and an outer surface area of the secondary arm partially overlap. It is contemplated that the primary arm comprises a locking mechanism to restrict the primary and secondary arms from sliding relative to each other. For example, the locking mechanism can comprise a fastener that is inserted into aperture 110 on the primary arm to thereby exert pressure on the secondary arm and provide friction-based restriction of movement. In another example, the locking mechanism can be a detent mechanism which catches corresponding cavities 108 in the primary and/or secondary arms. In yet another example, the locking mechanism can comprise a pin lock mechanism whereby a pin is inserted into aperture 110 of both of the primary and secondary arms.

[0083] The bottom-most ends of telescoping arms 1102a-1102d can be removably coupled to lateral support bars 1104. For example, two lateral support bars 1104 can be removably coupled to the first and third telescoping arms 1102a and 1102c, and the second and fourth telescoping arms 1102b and 1102d, respectively. As shown in FIG. 11, a shelf can be placed on top of lateral bars 1104. It is contemplated that the shelf can be attached to the lateral arms using a magnetic coupler, a friction fit coupler, a screw-based coupler, and a snap fit coupler. In alternative embodiments, the shelf can be permanently fixed to the lateral support bars 1104. For example, the shelf and lateral support bars 1104 could be welded together. In yet other embodiments, the shelf and lateral support bars 1104 can be formed as a single piece using a molding process.

[0084] FIG. 12 depicts a perspective view of an overhead storage system 1200 that uses a ceiling track and a vertical wall track. Overhead storage system 1200 comprises four telescoping arms, an overhead track, a support mechanism, and a vertical wall track. As shown in FIG. 12, the four telescoping arms are each connected to the overhead track on one end and a lateral bar on an opposite end. The lateral support bars 1104 support two wire shelf units. Furthermore, two of the lateral support bars 1104 are coupled to the vertical wall track. The lateral support bars 1104 can be coupled to the vertical wall track using a separate coupling mechanism or an internal coupling mechanism to engage the rear facing hooks of the vertical wall track. For example, the lateral support bars 1104 can comprise a hook mechanism that engages hooks 404 of the vertical wall track (e.g., hooks of coupling unit of vertical rail, hooks of coupling unit shown in FIG. 10B). Thus, it is contemplated that the lateral support bars 1104 can couple overhead tracks and/or vertical tracks to provide support for overhead storage.

[0085] As used in the description herein and throughout the claims that follow, the meaning of a, an. and the includes plural reference unless the context clearly dictates otherwise. Also, as used in the description herein, the meaning of in includes in and on unless the context clearly dictates otherwise.

[0086] In some embodiments, the numbers expressing quantities of ingredients, properties such as concentration, reaction conditions, and so forth, used to describe and claim certain embodiments of the invention are to be understood as being modified in some instances by the term about. Accordingly, in some embodiments, the numerical parameters set forth in the written description and attached claims are approximations that can vary depending upon the desired properties sought to be obtained by a particular embodiment. In some embodiments, the numerical parameters should be construed in light of the number of reported significant digits and by applying ordinary rounding techniques. Notwithstanding that the numerical ranges and parameters setting forth the broad scope of some embodiments of the invention are approximations, the numerical values set forth in the specific examples are reported as precisely as practicable. The numerical values presented in some embodiments of the invention may contain certain errors necessarily resulting from the standard deviation found in their respective testing measurements. Moreover, and unless the context dictates the contrary, all ranges set forth herein should be interpreted as being inclusive of their endpoints and open-ended ranges should be interpreted to include only commercially practical values. Similarly, all lists of values should be considered as inclusive of intermediate values unless the context indicates the contrary.

[0087] It should be apparent, however, to those skilled in the art that many more modifications besides those already described are possible without departing from the inventive concepts herein. The inventive subject matter, therefore, is not to be restricted except in the spirit of the disclosure. Moreover, in interpreting the disclosure all terms should be interpreted in the broadest possible manner consistent with the context. In particular the terms comprises and comprising should be interpreted as referring to the elements, components, or steps in a non-exclusive manner, indicating that the referenced elements, components, or steps can be present, or utilized, or combined with other elements, components, or steps that are not expressly referenced.